Enclosed coiled tubing boat and methods

ABSTRACT

An apparatus including a coiled tubing unit coupled to a drilling rig, and an enclosure surrounding the coiled tubing unit. The coiled tubing unit may include a coiled tubing reel and a coiled tubing injector, wherein the injector may move relative to the coiled tubing reel. The coiled tubing unit is configured to move relative to the drilling rig in both longitudinal and lateral directions.

BACKGROUND

Coiled tubing drilling offers the advantages of reduced time and costsassociated with conventional drilling operations that utilize segmentedpipe. These advantages include reduced pipe handling time, reduced pipejoint makeup time, and reduced leakage risks.

When coiled tubing drilling is utilized, however, conventional drillingmay still be required to drill surface holes due to the lack of bitweight at the surface with coiled tubing drilling. A separateconventional drilling rig is then required to drill a surface hole,place surface casing, cement, and then drill to deeper depths. Thus,hybrid rigs exist that can perform both conventional drilling and coiledtubing drilling.

Hybrid rigs, however, are often utilized in extremely cold environments,such as Alaska. These rigs typically feature a fixed coiled-tubing-reellocation, which is cumbersome and difficult to position and operate,particularly in extremely cold environments. Moreover, the entire coiledtubing unit (e.g., reel and injector) is exposed to the coldenvironment, and can be subject to freeze-up or other weather-inducedfailure,

One recent advance in the field of coiled tubing rigs is discussed inco-pending U.S. patent application Ser. No. 11/847,437, filed Aug. 30,2007. That document discloses an apparatus including a mobile trailer, acoiled tubing unit coupled to the mobile trailer, and an enclosuresurrounding the coiled tubing unit, which coiled tubing unit may includea coiled tubing reel and a coiled tubing injector. The reel and theinjector may be positionally fixed relative to one another andcollectively move relative to the mobile trailer as an integral unit.

Additionally, the number and availability of hybrid rigs is low. Majormodification or re-design of existing rigs configured for drilling withsegmented pipe is typically required to add the capability to drill withcoiled tubing. This modification or re-design of existing rigs isexpensive and takes a long time. Thus, there remains a need for improvedcoiled tubing rig equipment and drilling methods.

SUMMARY OF THE INVENTION

The invention encompasses an enclosed coiled tubing boat apparatus,including a structural framework, a coiled tubing reel and anoperatively associated coiled tubing injector, and an enclosure that isoperatively associated with the structural framework and that surroundsa portion of the coiled tubing reel and the coiled tubing injector toform the coiled tubing boat apparatus, wherein the coiled tubinginjector is configured to move within the coiled tubing boat apparatusand wherein the structural framework is adapted for installation andoperative association with a drilling rig.

In one embodiment, the coiled tubing boat apparatus is movably coupledto the drilling rig and the coiled tubing boat apparatus is configuredto move in at least two dimensions relative to the drilling rig. In apreferred embodiment, the coiled tubing boat apparatus is coupled to astructural member layout on the drilling rig. In another preferredembodiment, the coiled tubing boat apparatus is adapted to move betweena non-operating, coiled tubing reel exchange position and an operatingposition, each on the drilling rig. In a more preferred embodiment, thenon-operating coiled tubing reel exchange position includes a portion ofthe coiled tubing boat apparatus overhanging a rear of the drilling rig.In yet another preferred embodiment, the operating position includes thecoiled tubing boat apparatus positioned proximate the mast of thedrilling rig. In a more preferred embodiment, the coiled tubing boatapparatus is adapted to move to a non-operational rig transport locationin which the coiled tubing apparatus is adapted to move laterallyrelative to the drilling rig to facilitate lowering of the mast of thedrilling rig to an at least substantially horizontal position. Inanother embodiment, the coiled tubing boat apparatus further includes adriller's cabin that includes a plurality of controls to at leastoperate the coiled tubing injector, and hoist and lower a block of thedrilling rig.

The invention further encompasses a method of modifying an existingdrilling rig which includes installing a plurality of structural memberson the existing drilling rig; providing a coiled tubing boat apparatuswhich includes a structural framework adapted to be associated with theplurality of structural members, an enclosure surrounding at least aportion of the structural framework, a coiled tubing reel, and a coiledtubing injector; wherein the coiled tubing injector moves between anon-operational position within the coiled tubing boat apparatus and anoperational position; and operatively associating the coiled tubing boatapparatus with the plurality of structural members so that the coiledtubing boat apparatus may move relative to the drilling rig.

The invention also encompasses a method of operating a drilling rig byproviding a plurality of structural members on the drilling rig,providing a coiled tubing boat apparatus which includes a structuralframework adapted to be associated with the plurality of structuralmembers, operatively associating the coiled tubing boat apparatus withthe plurality of structural members so that the coiled tubing boatapparatus may move relative to the drilling rig, and moving a coiledtubing boat apparatus between an operating position and anon-operational, coiled-tubing-reel exchange position on the drillingrig.

In one embodiment, moving the coiled tubing boat apparatus to thecoiled-tubing-reel exchange position includes moving the coiled tubingboat apparatus so that a portion of the coiled tubing apparatusoverhangs a rear of the drilling rig. In another embodiment, moving thecoiled tubing boat apparatus to the operating position includes movingthe coiled tubing boat apparatus proximate a mast of the drilling rig.In yet a further embodiment, the method further includes moving thecoiled tubing boat apparatus laterally relative to the drilling rig tofacilitate lowering of a mast of the drilling rig to be lowered to atleast a substantially horizontal position. In still a furtherembodiment, the method further includes controlling a coiled tubinginjector and hoisting and lowering of a block of the drilling rig from adriller's cabin in the coiled tubing boat apparatus.

The invention also encompasses a coiled tubing boat apparatus includingan operatively associated coiled tubing reel and coiled tubing injector,wherein the coiled tubing injector is configured to move relative to thecoiled tubing reel, an enclosure surrounding at least a portion of thecoiled tubing reel and coiled tubing injector to form the coiled tubingboat apparatus, wherein the coiled tubing boat apparatus is integrallycoupled with an existing drilling rig and configured to translate in atleast two dimensions relative to the drilling rig.

In one embodiment, the at least two dimensions includes longitudinal andlateral movement relative to the drilling rig. In another embodiment,the coiled tubing boat apparatus is supported by a structural frameworkthat is operatively associated with a plurality of structural membersconnected to the drilling rig, wherein the coiled tubing boat isinstalled on the plurality of structural members. In yet a furtherembodiment, the coiled tubing boat apparatus is adapted to translatelongitudinally relative to the drilling rig so that a portion of thecoiled tubing boat apparatus overhangs a rear of the drilling rig in anon-operational position. In still another embodiment, the coiled tubingboat apparatus further includes a driller's cabin that includes aplurality of controls to at least operate the coiled tubing injector,and hoist and lower a block of the drilling rig.

It should be understood that various embodiments described herein can becombined or substituted in various ways to form additional embodimentsaccording to the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The present disclosure can be better understood from the followingdetailed description when read in association with the accompanyingfigures described below. It is emphasized that, in accordance with thestandard practice in the industry, various features are not drawn toscale. In fact, the dimensions of the various features may bearbitrarily increased or reduced for clarity of discussion.

FIG. 1 is a partial side view of a coiled tubing boat according to anembodiment of the present invention;

FIG. 2 is a side view of a coiled tubing boat of FIG. 1 in anoperational position on a drilling rig according to an embodiment of theinvention;

FIG. 3 is partial plan view of the apparatus shown in FIG. 2 accordingto an embodiment of the invention;

FIG. 4 is a partial plan view of a layout of structural members on adrilling rig according to an embodiment of the invention;

FIG. 5 is a partial plan view of the structural framework of the coiledtubing boat of FIG. 1 in an operational position coupled to thestructural members of FIG. 4 according to an embodiment of theinvention;

FIG. 6 is another partial plan view of the structural framework of thecoiled tubing boat of FIG. 1 coupled to the structural members of FIG. 4according to an embodiment of the invention;

FIG. 7 is a partial side view of a coiled tubing boat of FIG. 1 in acoiled tubing reel exchange position on a drilling rig according to anembodiment of the invention;

FIG. 8 is an end view from the coiled tubing reel end of a coiled tubingboat of FIG. 1 on a drilling rig according to an embodiment of theinvention; and

FIG. 9 is an end view from the mast end of a drilling rig of a coiledtubing boat of FIG. 1 on a drilling rig according to an embodiment ofthe invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

It is to be understood that the following disclosure provides manydifferent embodiments, or examples, for implementing different featuresof various embodiments. Specific examples of components and arrangementsare described below to simplify the discussion below. These are, ofcourse, merely examples and are not intended to be limiting. Inaddition, the present disclosure may repeat reference numerals and/orletters in the various examples. This repetition is for the purpose ofsimplicity and clarity and does not in itself dictate a relationshipbetween the various embodiments and/or configurations discussed.Moreover, the formation of a first feature over or on a second featurein the description that follows may include embodiments in which thefirst and second features are formed in direct contact, and may alsoinclude embodiments in which additional features may be formedinterposing the first and second features, such that the first andsecond features may not be in direct contact unless specifically statedto be so.

The invention generally provides an integrated coiled tubing reel,injector, and cart in the form of a coiled tubing boat or skid, which isat least partially, preferably entirely, enclosed to adapt it for Arcticor other cold-weather operation, along with an operably coupled guidesystem for longitudinal and lateral movement of the coiled tubing boatrelative to a drilling rig. The term “guide” or “guide system” may alsobe referred to herein as a “track” or “track system.” The coiled tubingboat and guide system can be provided on new rigs or existing rigs canbe modified and adapted to include a guide system that can accommodatethe coiled tubing boat as described herein. The coiled tubing boatsystem can advantageously permit modification of existing rigs withoutmajor modification or re-design of the drilling rig.

The coiled tubing boat is preferably pre-manufactured and assembled inthe modification embodiment, such that an existing rig can be readilymodified by adding the guide system and optional jacking system, andproviding the coiled tubing boat in operative association therewith tothe guide. The longitudinal and lateral movement of the coiled tubingboat relative to the drilling rig allows for easy replacement of thecoiled tubing reel, adjustment of the weight and balance of the drillingrig (along with operation of the optional jacking system when present),and also allows the mast of the drilling rig to be lowered to at least asubstantially horizontal position on the rig when desired, such as forrig relocation. In another embodiment, a rig may be initially arrangedor even integrally formed with a coiled tubing boat according to theinvention.

The coiled tubing boat advantageously includes/provides a rapidlyaddable framework that facilitates replacement of the coiled tubing unitor any other components that require repair or replacement, which cannow be done off-line while a replacement coiled tubing boat issubstituted in as a replacement on the rig. This can advantageouslyexpedite the assembly and disassembly speed for replacement and repairsbecause, e.g., the blowing down of the coil, disconnecting of variouspieces in the boat, and other tasks required to swap out a coiled tubingunit are advantageously minimized or eliminated during the replacementoperation to help limit rig downtime. Advantageously, the modificationof an existing rig can be easily accomplished by adding the guide andoptional jacking system, and providing the coiled tubing boat inoperative association therewith to the guide. The inventive coiledtubing boat can also advantageously permit the mast to be loweredwithout interference from the coiled tubing unit.

FIG. 1 is a side view of an embodiment of a coiled tubing boat 100according to one or more aspects of the present disclosure. The coiledtubing boat 100 may be a pre-manufactured skid system designed to beinstalled onto a layout of structural members that is installed on anexisting drilling rig. The structural members may also bepre-manufactured and installed to fit a particular existing rig. In oneembodiment, the skid system and structural members can even bepre-manufactured in association with each other, such as the structuralmembers including one or more tracks in which the skid system can be oris disposed. The track(s) can, in a preferred embodiment, partially orcompletely enclose a portion of the skid system to slidably retain it.The pre-manufacturing allows coiled tubing drilling capability to beadded to existing segmented pipe drilling rigs without majormodifications. Thus, a pre-manufactured skid system can allow quickerand less expensive modification of existing rigs. The present disclosuremay also be used on newly designed rigs that are to be designed ormanufactured. By “drilling rig” it should be understood that anywellsite operation is encompassed, including oil or gas, as well as pipedrilling or casing running.

The coiled tubing boat 100 is preferably fully enclosed within anenclosure or exterior wall 102, or otherwise protected from the cold andharsh elements associated with Arctic-type rig operations. Being fullyenclosed within the exterior wall 102, for example, allows drillingequipment and other components of the coiled tubing boat 100 to moreeasily be maintained at an adequate temperature and, thereby, minimizeor eliminate “freeze up”, as well as metal fatigue, cracking, and othersimilar equipment problems that can occur in Arctic-type environments orin environments with extreme temperature cycling. Positioning the coiledtubing reel within a protected enclosure can advantageously provide anadded benefit of avoiding blow down of the coil to remove excess fluidafter operations, since the coil will remain above freezing in theprotected enclosure. Blow down of the coil to remove excess fluid fromthe coiled tubing (CT) may still be required when changing the coil,e.g., for safety or environmental reasons. For example, the exteriorwall 102 shields the interior of the coiled tubing boat 100 from windand other harsh elements of cold environments, and may also help toprevent the escape of any thermal energy generated inside the interiorof the coiled tubing boat 100, such as from one or more heaters 101. Forexample, the coiled tubing boat 100 may include one or more about 2.5 MMBTU heaters each operable at 20 gal/hr. One or more less powerfulheaters (e.g., about 0.5 MM to about 1 MM BTU heaters) can be used ifadditional heating locations or granularity in total heating capacity isdesired. The one or more heaters 101 may be configured to maintain theinternal temperature of the coiled tubing boat 100, internal to theexterior wall 102, at or above a minimum temperature. For example, theminimum temperature may be about 34° F. to 45° F., typically about 40°F., although other temperatures are also within the scope of the presentdisclosure.

Alternatively, the exterior wall 102 may shield the interior of thecoiled tubing boat 100 from other weather elements in environments otherthan cold environments, such as by protecting the interior of the coiledtubing boat 100 from sand or other airborne debris which may exist inwarmer environments (e.g., the desert).

Still referring to FIG. 1, in this example, the coiled tubing boat 100includes a coiled tubing reel 104 and a coiled tubing injector assembly106. The coiled tubing injector assembly 106 includes a coiled tubinginjector 108 and a coiled tubing injector cart 110. The coiled tubinginjector cart 110 is configured to retain the coiled tubing injector 108and to travel along the longitudinal axis 112 of the coiled tubing boat100 between a rig mast and the coiled tubing reel 104. The coiled tubinginjector cart 110 may travel along the longitudinal axis by the use ofrolling element(s) (including but not limited to cylinders, wheels,balls, or any other suitable roll able shape), low-friction surfaces, orother device(s) to facilitate relative motion between the coiled tubinginjector cart 110 and the coiled tubing boat 100 that is available tothose of ordinary skill in the art. In a preferred embodiment, therolling element(s), low-friction surfaces, or other longitudinalmovement mechanism maybe operatively associated with a track, a rail,trailer, or another elongated guide of any suitable type available tothose of ordinary skill in the art to facilitate longitudinal movementof the coiled tubing boat 100 along the longitudinal axis of thedrilling rig (not shown in FIG. 1). The use of the term “guide” hereinrefers to any type of mechanism to promote movement of the coiled tubingboat. The guide system may be pre-manufactured based on dimensions ofexisting rig specifications, and then assembled in advance and thenrapidly disposed into place right onto an existing drilling rig surfacewithout need for lengthy interference with drilling operations. In thisexample, the coiled tubing boat 100 includes a coiled tubing injectorassembly 106 that travels on a plurality of wheels (not ennumerated)associated with structural rails 107 that extend at least substantiallyalong the length of the coiled tubing boat 100 from the drilling end 109of the coiled tubing boat 100 to proximate the coiled tubing reel 104.

In an exemplary embodiment, the coiled tubing reel 104 may include acoiled tubing reel system manufactured by Foremost Industries. In anexemplary embodiment, the coiled tubing injector assembly may include acoiled tubing injector M100 made by Stewart and Stevenson. The movementof the coiled tubing injector assembly 106 within the coiled tubing boat100 allows the weight of the coiled tubing boat 100 to be balanced forwhen the coiled tubing boat 100 needs to be moved, as described in moredetail below, and facilitates the proper positioning of the coiledtubing injector 108 and the coiled tubing reel 104 relative to eachother, such as for spooling purposes and to help maintain the properangle and tension between the coiled tubing injector 108 and the coiledtubing reel 104.

FIG. 2 is a side view of an example of a coiled tubing boat 100 locatedin an operational position 200 on a drilling rig 202, i.e., a positionfrom which coiled tubing operations will be conducted. Drilling rig 202may be a hybrid coiled tubing and segmented pipe drilling rig that isknown to be useful in operation in Arctic environments. In theoperational position 200, in this example, the coiled tubing boat 100 islocated so that the drilling end 109 opposite the coiled tubing reel 104of the coiled tubing boat 100 is proximate a wind wall 206 that at leastpartially surrounds the mast 208 of the drilling rig 202. The drillingrig 202 is further configured to allow the coiled tubing injector cart110 to travel along the drilling rig 202 between the drilling end 109 ofthe coiled tubing boat 100 to over well center 212. The wind wall 206 isconfigured to allow an openable area 210 in the wind wall 206 to openand allow the coiled tubing injector cart 110 to travel within theconfines of the wind wall 206. Likewise, the exterior wall 102 isconfigured to allow an openable area 209 to open and allow the coiledtubing injector cart 110 to travel from the coiled tubing boat 100 tothe drilling rig 202. The openable areas 209 and 210 may close to retainheat in situations when the coiled tubing boat 100 moves away from thewind wall 206 or when the rig is otherwise not in operation such thatthe cart 110 need not be over well center.

Still referring to FIG. 2, in this example, once the coiled tubinginjector cart 110 has positioned the coiled tubing injector 108sufficiently over well center 212, the coiled tubing injector 108 may beraised to an elevated position 214 along the mast 208 to conduct variouscoiled tubing activities, such as insertion of the bottom hole assembly(BHA). This operation is well known to those of ordinary skill in theart. In the elevated position 214, the coiled tubing injector 108 isdisposed within the confines of the wind wall 206 and the coiled tubing216 is also disposed within the enclosure of the exterior wall 102 ofthe coiled tubing boat 100.

FIG. 3 is a partial plan view of an embodiment of a coiled tubing boat100 illustrating various preferred components that may be located withinthe coiled tubing boat 100. In addition to the coiled tubing reel 104and the coiled tubing injector assembly 106, the coiled tubing boat 100may include a driller's cabin 114, a lift system 116 (e.g., withoutlimitation, an about 40-ton, about 50-ton, or about 60-ton system) forraising and lowering the coiled tubing reel 104 up into the enclosure ordown below the enclosure for exchange of a coiled tubing reel 104 with areplacement. Also, various types of electrical equipment 118 andhydraulic equipment 120 may be included for operation and control of thecoiled tubing reel 104 and injector assembly 106, although otherconfigurations of the features depicted in FIG. 3 are also within thescope of the present disclosure. For example, the electrical equipment118 may include a motor control center 119. The motor control center 119may include variable frequency drive technology to provide variable ACpower to the drilling and support machinery. The motor control center119 may also include the ability to use incoming electrical power, suchas incoming 13.8 kV power, when available. The coiled tubing boat may bedesigned with walkways 122, which may or may not be enclosed within theexterior wall 102, to facilitate operations. Windows 124 in thedriller's cabin 114, when included as depicted, allow a view of thecoiled tubing injector cart 106 such as when it travels within thecoiled tubing boat 100 and when it is located within the drilling rig202.

In an exemplary embodiment, the driller's cabin 114 may provide a calmenvironment for one or more operators to work by reducing noise levelsand providing machinery automation. The coiled tubing injector 108push/pull and block hoisting/lowering may be controlled by a joystick orother human-machine interface from within the cabin 114.

Quality of work and important decision making can thus be improved inthis atmosphere. The console and other control panels within thedriller's cabin 114 are preferably configured to allow personnel tocomplete regular shifts while minimizing stress and strain, despite theharsh environment outside of the cabin 114. Operational controls andparameters, such as hook load, block height, speed and rate ofpenetration (ROP), as well as status and alarms and a variety of otherdrilling operations, may be accessed via touch screens connected to thedrilling control network in the cabin 114. The control system mayinclude one or more of the following features configured to help thedriller optimize efficiency and safety of operation, including: coiledtubing tension minimum and maximum set points; coiled tubing stressanalysis and life management; managed pressure choke control; blockposition limits (crown saver and floor saver); block speed limits(safety limits, swab, surge and casing speed); driller's set points(stopping positions); over-pull limits and snubbing limits; drilling andtripping process screens; pit volume, flow, and pit valve control. Theelectronic drilling control algorithms help drillers significantlyreduce drilling costs and improve rig safety. Superior drillingperformance may thus be achieved by increased precision in monitoring ormaintaining at least one of four parameters simultaneously: weight onbit (WOB), ROP, drilling torque and delta-P (differential down-holemotor pressure), or any combination thereof. These design features mayprovide consistent, steady-state control at the drill bit, which mayresult in longer bit life, optimum bit performance, reduced bit usageand reduced bit trips. This system may also help improve directionaldrilling control and accuracy.

FIG. 4 is a plan view of an example of a layout 400 showing a pluralityof structural members 402 that may be located on drilling rig 202 toallow drilling rig 202 to receive and laterally transfer the coiledtubing boat 100 (not shown in FIG. 4). Structural members 402 may be,e.g., structural steel channels, I-beams, or other structural membershaving sufficient rigidity and strength so as to be adapted to supportthe weight and movement of the coiled tubing boat 100. Any suitablematerial, e.g., stainless steel, aluminum or an alloy thereof, etc., andany suitable arrangement of structural members may be used by those ofordinary skill in the art based on the guidance provided herein. Layout400 includes a pair of rear members 404 that extend past the back end406 of the drilling rig 202 opposite the mast 208. As will be explainedin greater detail below, rear members 404 facilitate movement of thecoiled tubing boat 100 relative to the drilling rig 202 so that a rearend 103 of the coiled tubing boat 100 can overhang the back end 406 ofthe drilling rig 202 (see FIG. 7 and associated discussion). Thisadvantageously can permit the coiled tubing reel 104 to be lowered tothe ground when it is necessary to exchange the coiled tubing reel 104.In this example, a pair of rear members 404 are illustrated, however,any suitable number of rear members 404 could be used that allows thefunction of exchanging the coiled tubing reel 104. In one embodiment(not shown), the rear members 404 can be sloped from the back end 406 ofthe drilling rig 202 downwards to the ground to facilitate lowering ofthe coiled tubing reel 104.

A plurality of side members 408 of layout 400 are advantageouslyincluded and extend to at least one side of the drilling rig 202, andmay extend past the side 410 of drilling rig 202. As further explainedbelow, side members 408 facilitate movement of the coiled tubing boat100 relative to the drilling rig 100, thereby permitting the coiledtubing boat 100 to move laterally relative to the drilling rig 202 sothat the mast 208 may be lowered in a horizontal direction, andpreferably to an at least substantially, or preferably entirely, loweredhorizontal position on the drilling rig 202, such as, for example, whenit is necessary to move the entire drilling rig 202 to a new location.In this example, five side members 408 are illustrated, however, anynumber of side members 408 could be used that allows the coiled tubingboat 100 to move laterally with respect to the drilling rig 202 to allowthe mast 208 to be lowered in that general direction to occupy at leasta portion of the location previously occupied by the coiled boat duringoperation (i.e, in the operational position), and preferably to belowered to a horizontal position that would not have been possible butfor the movement of the coiled tubing boat away from the operationalposition.

FIG. 5 is a partial plan view of the framework 500 of the coiled tubingboat 100 positioned over the layout 400 of the structural members 402while the coiled tubing boat is in an operational position 200.Framework 500 may include structural steel channels, I-beams, or otherstructural members adapted to support the weight and movement of thecoiled tubing boat 100 as described above for structural members 402.Framework 500 is preferably adapted to support the desired components ofcoiled tubing boat 100, including the coiled tubing reel 104 and coiledtubing injector assembly 106, and preferably also the driller's cabin114, the 50-ton lift system 116, electrical equipment 118, and hydraulicequipment 120. Framework 500 preferably provides sufficient strength andrigidity so that the fully enclosed, integrated package of the coiledtubing boat 100 may be raised by crane, or any other technique availableto those of ordinary skill in the art, and installed on top of thelayout 400 on top of the drilling rig 202.

Although not depicted, it should be understood that a jacking system canbe preferably included and operably associated with the coiled tubingboat to facilitate the shifting of the boat's weight and to assist withbalancing the overall weight on the drilling rig 202. This jackingsystem can be adapted, for example, to lift or lower one, two, three, oreven four points on the structural members 402 the same or independentlyvarying amounts, such as at four opposite corners of the boat, which canassist in shifting the weight and balance of the coiled tubing boat tominimize the risk of rig tipping, to facilitate lateral or longitudinalmovement of the boat, or otherwise to streamline drilling rig operation.

The coiled tubing boat may then be seen to move in three dimensions. Thecoiled tubing boat may move in two at least substantially, or preferablyentirely, horizontal directions laterally and longitudinally relative toa drilling rig or the remainder of a drilling rig. The coiled tubingboat may also move in a third, vertical dimension relative to the rig bythe use of the jacking system when present.

FIG. 6 is a partial plan view of the framework 500 of the coiled tubingboat 100 positioned over the layout 400 of the structural members 402while the coiled tubing boat 100 is in a side position on the drillingrig 202 with the mast 208 in a horizontal position on the drilling rig202. The coiled tubing boat 100 may move along the structural members402 by the use of electric or hydraulic motors, winches, rails, wheels,low-friction surface(s), or any other available mechanism (not shown)allowing relative motion between the coiled tubing boat 100 and thestructural members 402 that are known to one of ordinary skill in theart, particularly based on the guidance herein. Furthermore, in thisexample, it is shown that the coiled tubing boat 100 moves to the rightwhen viewed from the rear of the drilling rig 202, however, moving tothe left when viewed from the rear of the drilling rig 202 is alsowithin the scope of the present disclosure. In an exemplary embodiment,the coiled tubing boat 100 travels laterally by the same or a differentmechanism as along the track or elongate guide between the rear and mastend of the drilling rig 202. Even if the same mechanism is used, thelateral movement can be independent of the longitudinal movement, forexample, by respectively engaging and disengaging the longitudinalmovement mechanism and the lateral movement mechanism as needed.

In another embodiment (not shown), the longitudinal and lateral movementmechanisms are the same. In this embodiment, for example, a set ofrollers can be associated with a channel or track, and the coiled tubingboat 100 can be moved either longitudinally or laterally along aplurality of lateral supports that are all interconnecting in a grid.For example, a plurality of switches or gates, such as might be used inrailroad track, can be opened and closed to help modify the channel ortrack to facilitate guiding the coiled tubing boat 100 in the desireddirection and to the desired location. Thus, the coiled tubing boat 100can be guided along the longitude, at which point a gate could blockfurther longitudinal travel and a plurality of lateral support guidegates can be opened to permit lateral movement of the coiled tubing boat100.

FIG. 7 is a partial side view of the coiled tubing boat 100 positionedon a plurality of structural members 402 so that the rear end 103 of thecoiled tubing boat 100 overhangs the back end 406 of the drilling rig202. This can facilitate lowering the coiled tubing reel 104 to theground with a lift 116 when it is necessary or desired to exchange thecoiled tubing reel 104.

FIG. 8 is a partial end view of the coiled tubing boat 100 on thedrilling rig 202 from the reel end of the coiled tubing boat. FIG. 9 isa partial end view of the coiled tubing boat 100 on the drilling rig 202from the mast end of the drilling rig 202. Existing drilling rigs may bemodified and adapted to contain a doghouse 901 inside of which thedriller controls the drilling operations, e.g., electronically (such aswith a joystick) or hydraulically, and the doghouse may include thecontrol panel for the rig. The doghouse 901 where the driller cancontrol the apparatus and drilling operations is preferably included aspart of the coiled tubing boat in the driller's cabin 114, but in otherembodiments, the doghouse 901 can be part of the rig and is only at mostoperatively associated with the coiled tubing boat.

In view of the above description and the figures, it should be apparentto those of ordinary skill in the art that the present disclosureintroduces a coiled tubing boat apparatus including a pre-manufactured,fully integrated, coiled tubing unit and an enclosure surrounding thecoiled tubing unit. The coiled tubing unit may include a coiled tubingreel and a coiled tubing injector, wherein the coiled tubing injectormay move relative to the coiled tubing unit. The apparatus may furtherinclude a track extending at least a portion of the length of the coiledtubing unit, wherein the coiled tubing injector is configured totranslate along the track laterally relative to the coiled tubing unit.The apparatus also includes a plurality of structural members thatfacilitate lateral movement of the coiled tubing boat to permit the mastof the drilling rig to be lowered to at least a substantially horizontalposition or an entirely horizontal position, such that the mast occupiesat least a portion of a location in which the coiled tubing boat waspreviously positioned. The enclosure may surround a portion of coiledtubing that extends from the coiled tubing reel to the coiled tubinginjector. The apparatus may further include a lifting system configuredto transfer the coiled tubing reel from the coiled tubing unit to aground location to replace the coiled tubing reel, or this liftingsystem may be separate and operatively associated with the presentapparatus when desired. The apparatus may further include a heatercoupled to the coiled tubing unit internal to the enclosure, such as oneor more 2.5 MM BTU heaters each operable at 20 gal/hr.

The term “about,” as used herein, should generally be understood torefer to both numbers in a range of numerals. Moreover, all numericalranges herein should be understood to include each whole integer withinthe range.

The term “portion” or “a portion” refers to any portion described, suchas a minority, half, majority, at least substantially all, or entirelyall of the characteristic described. Preferably, in some embodiments, itrefers to at least substantially or entirely all of the characteristic.

The term “boat” or “coiled tubing boat” is used herein to refer to askid or other structure adapted to be installed on, or be formed as partof, a drilling rig, and is not intended to refer to any kind ofwatercraft.

The foregoing discussion outlines features of several embodiments sothat those of ordinary skill in the art may better understand variousaspects included within the present disclosure. Those of ordinary skillin the art should appreciate that they may readily use the presentdisclosure as a basis for designing or modifying other methods, systems,and structures for carrying out the same purposes and/or achieving thesame advantages of the embodiments introduced herein. Those of ordinaryskill in the art should also realize that such equivalent constructionsdo not depart from the spirit and scope of the present disclosure, andthat they may make various changes, substitutions and alterations hereinwithout departing from the spirit and scope of the present disclosure.

What is claimed is:
 1. An enclosed coiled tubing boat apparatus,comprising: a structural framework; a coiled tubing reel and anoperatively associated coiled tubing injector; and an enclosure that isoperatively associated with the structural framework and that surroundsa portion of the coiled tubing reel and the coiled tubing injector toform the coiled tubing boat apparatus; wherein the coiled tubinginjector is configured to move within the coiled tubing boat apparatusand wherein the structural framework is integrally coupled with anexisting drilling rig; wherein the coiled tubing boat apparatus ismovably coupled to the drilling rig and the coiled tubing boat apparatusis configured to move in at least two dimensions relative to thedrilling rig; and wherein the coiled tubing boat apparatus is adapted totranslate longitudinally relative to the drilling rig so that a portionof the coiled tubing boat apparatus overhangs a rear of the drilling rigin a non-operational position.
 2. The coiled tubing boat apparatus ofclaim 1, wherein the coiled tubing boat apparatus is coupled to astructural member layout on the drilling rig.
 3. The coiled tubing boatapparatus of claim 1, wherein the coiled tubing boat apparatus isadapted to move between the non-operating, coiled tubing reel exchangeposition and an operating position, each on the drilling rig.
 4. Thecoiled tubing boat apparatus of claim 3, wherein the operating positionincludes the coiled tubing boat apparatus positioned proximate a mast ofthe drilling rig.
 5. The coiled tubing boat apparatus of claim 4,wherein the coiled tubing boat apparatus is adapted to move to anon-operational rig transport location in which the coiled tubingapparatus is adapted to move laterally relative to the drilling rig tofacilitate lowering of the mast of the drilling rig to an at leastsubstantially horizontal position.
 6. The coiled tubing boat apparatusof claim 1, further comprising a driller's cabin that includes aplurality of controls to at least operate the coiled tubing injector,and hoist and lower a block of the drilling rig.
 7. A method ofmodifying an existing drilling rig which comprises: installing aplurality of structural members on the existing drilling rig; providinga coiled tubing boat apparatus which comprises: a structural frameworkadapted to be associated with the plurality of structural members; anenclosure surrounding at least a portion of the structural framework; acoiled tubing reel; and a coiled tubing injector; wherein the coiledtubing injector moves between a non-operational position within thecoiled tubing boat apparatus and an operational position; andoperatively associating the coiled tubing boat apparatus with theplurality of structural members so that the coiled tubing boat apparatusmay move in at least two dimensions relative to the drilling rig,wherein the at least two dimensions include longitudinal and lateralmovement relative to the drilling rig, and wherein the coiled tubingboat apparatus is adapted to translate longitudinally relative to thedrilling rig so that a portion of the coiled tubing boat apparatusoverhangs a rear of the drilling rig in a nonoperational position.
 8. Amethod of operating an existing drilling rig which comprises: providinga plurality of structural members on the drilling rig; providing acoiled tubing boat apparatus which comprises a structural frameworkadapted to be associated with the plurality of structural members;operatively associating the coiled tubing boat apparatus with theplurality of structural members so that the coiled tubing boat apparatusmay move in at least two dimensions relative to the drilling rig,wherein the at least two dimensions include longitudinal and lateralmovement relative to the drilling rig; and moving the coiled tubing boatapparatus between an operating position and a non-operational,coiled-tubing-reel exchange position on the drilling rig, wherein movingthe coiled tubing boat apparatus to the coiled-tubing-reel exchangeposition comprises moving the coiled tubing boat apparatuslongitudinally relative to the drilling rig so that a portion of thecoiled tubing apparatus overhangs a rear of the drilling rig.
 9. Themethod of claim 8, wherein moving the coiled tubing boat apparatus tothe operating position comprises moving the coiled tubing boat apparatusproximate a mast of the drilling rig.
 10. The method of claim 8, furthercomprising moving the coiled tubing boat apparatus laterally relative tothe drilling rig to facilitate lowering of a mast of the drilling rig tobe lowered to at least a substantially horizontal position.
 11. Themethod of claim 8, which further comprises controlling a coiled tubinginjector and hoisting and lowering of a block of the drilling rig from adriller's cabin in the coiled tubing boat apparatus.
 12. A coiled tubingboat apparatus comprising: an operatively associated coiled tubing reeland coiled tubing injector; wherein the coiled tubing injector isconfigured to move relative to the coiled tubing reel; an enclosuresurrounding at least a portion of the coiled tubing reel and coiledtubing injector to form the coiled tubing boat apparatus; wherein thecoiled tubing boat apparatus is integrally coupled with an existingdrilling rig and configured to translate in at least two dimensionsrelative to the drilling rig, wherein the at least two dimensionsinclude longitudinal and lateral movement relative to the drilling rig,and wherein the coiled tubing boat apparatus is adapted to translatelongitudinally relative to the drilling rig so that a portion of thecoiled tubing boat apparatus overhangs a rear of the drilling rig in anon-operational position.
 13. The coiled tubing boat apparatus of claim12, wherein the coiled tubing boat apparatus is supported by astructural framework that is operatively associated with a plurality ofstructural members connected to the drilling rig; wherein the coiledtubing boat is installed on the plurality of structural members.
 14. Thecoiled tubing boat apparatus of claim 12, which further comprises adriller's cabin that includes a plurality of controls to at leastoperate the coiled tubing injector, and hoist and lower a block of thedrilling rig.